JP6839036B2 - Wireless communication system, base station equipment, and mobile wireless communication method between base station equipment - Google Patents

Description

The present invention relates to a wireless communication system, a base station device, and a mobile radio communication method between base station devices.

Conventionally, when a wireless terminal device during communication moves across the communication range of the base station device, a handover process for switching the base station device has been performed. Since the communication quality deteriorates as the wireless terminal device moves away from the center of the communication range, the connection destination is switched to the base station device having better communication quality than the base station device currently connected by the handover process to maintain the communication quality.

For example, in Patent Document 1, the wireless terminal device and the base station device perform two-way communication, and information such as an identification code and a frequency for each base station device is mutually exchanged at a location where the communication ranges of the base station devices overlap. A technique for delivering and realizing a handover process without disconnection of wireless communication is disclosed.

FIG. 17 is a diagram showing a wireless communication system 100 in which a conventional handover process is performed (see, for example, Patent Document 1). Communication range of base station device AP1 When the wireless terminal device STA1a belonging to BBS1 is handed over to a different base station device AP2, first, the wireless terminal device STA1a overlaps the communication range of the base station device AP1 and the base station device AP2. Move to the area OVL. In the area OVL, the base station apparatus AP2 can receive the data frame addressed to the base station apparatus AP1 transmitted by the wireless terminal apparatus STA1a.

When the base station apparatus AP1 detects the deterioration of the received signal strength of the wireless terminal apparatus STA1a, the base station apparatus AP1 requests the base station apparatus AP2 to perform a handover of the wireless terminal apparatus STA1a. The base station device AP2 notifies the base station device AP1 of a handover response including the acceptance information of the handover of the wireless terminal device STA1a. During the handover procedure, the base station device AP1 of the handover source performs transmission / reception of data from the wireless terminal device STA1a.

Next, when the base station device AP1 receives the handover response, the base station device AP1 notifies the base station device AP2 of a handover request including information such as the address, the identification code BSSID, and the frequency of the wireless terminal device STA1a. After that, the base station apparatus AP2 registers the identification code BSSID and notifies the base station apparatus AP1 of the completion of the handover via the communication line FIX.

In this way, in the communication control of the wireless terminal device that moves between the base station devices using the conventional handover process, the wireless terminal device and the base station device communicate with each other, and further, the base station device side. Also in the above, after communicating with each other and specifying the frequency and the identification code, the base station device of the wireless terminal device was switched. Therefore, there is a problem that the processing on the base station apparatus side becomes complicated.

Japanese Unexamined Patent Publication No. 2006-270665

An object of the present invention is to provide a base station device capable of more easily performing communication control of a wireless terminal device moving between base station devices.

In order to solve the above-mentioned problems, the wireless communication system according to the present invention includes a plurality of base station devices arranged in a predetermined communication area and each having its own communicable range, and the plurality of base station devices. A wireless communication system including a wireless terminal device capable of communicating with each of the plurality of base station devices, wherein at least one of the plurality of base station devices communicates with the plurality of base station devices within the predetermined communication area. Each of the plurality of base station devices includes a key information issuing circuit that issues key information that identifies a permitted wireless terminal device, and the wireless terminal device includes a data transmission circuit that transmits data by broadcast communication. Is a data receiving circuit that receives data transmitted by the wireless terminal device, and a determination circuit that determines whether or not the data received from the wireless terminal device is to be processed based on the key information. , characterized in that it comprises a.

Further, the wireless communication system according to the present invention includes a plurality of base station devices arranged in a predetermined communication area and each having a unique communication range, and a wireless terminal device capable of communicating with each of the plurality of base station devices. A wireless communication system including an authorization device that grants the wireless terminal device the authority to communicate with the plurality of base station devices, wherein the authorization device is the plurality of bases in the predetermined communication area. The wireless terminal device includes a key information issuing circuit that issues key information that identifies a wireless terminal device that is permitted to communicate with a station device, and the wireless terminal device includes a data transmission circuit that transmits data by broadcast communication. Each of the base station devices of the above is a data receiving circuit that receives data transmitted by the wireless terminal device, and whether or not the data received from the wireless terminal device is subject to processing based on the key information. a decision circuit for the decision, characterized in that it comprises a.

Further, the wireless communication system according to the present invention further has a management server connected to each of the plurality of base station devices via a communication network, and each of the plurality of base station devices has the wireless terminal device. Based on the reception signal strength acquisition circuit that acquires the reception strength information of the signal received from each of the plurality of base station devices and transmits it to the management server, and the instruction from the management server, the data is received from the wireless terminal device. The management server further includes a control circuit for determining whether or not to transmit the data to the management server, and the management server uses the wireless terminal device based on the reception intensity information received from the plurality of base station devices. An instruction regarding a data transmission process to the plurality of base station devices arranged in the communication area based on the determination circuit for determining the base station device for acquiring the data transmitted by the determination circuit and the determination by the determination circuit. When the control circuit receives an instruction to transmit the data to the management server, the control circuit transmits the data to the management server, and the control circuit transmits the data to the management server. when the data has been received an instruction not to transmit to the management server and discards the data.

Further, the base station device according to the present invention is a base station device that is arranged in a predetermined communication area, has a unique communicable range, and can communicate with a wireless terminal device, and is within the predetermined communication area. A key information issuing circuit that issues key information that identifies a wireless terminal device that is permitted to communicate with a plurality of base station devices arranged in, and a data receiving circuit that receives data transmitted by broadcast communication from the wireless terminal device. If, on the basis of the key information, characterized in that it and a decision circuit for the determination of whether the target of processing the data received from the wireless terminal device.

Further, the base station device according to the present invention is a base station device that is arranged in a predetermined communication area, has its own communicable range, and can communicate with a wireless terminal device, and broadcast communication from the wireless terminal device. Based on the key information that identifies the wireless terminal device that is permitted to communicate with the data receiving circuit that receives the data transmitted by the above and the plurality of base station devices arranged in the predetermined communication area, the wireless terminal. A determination circuit for determining whether or not the data received from the device is to be processed, and a determination as to whether or not to process the data received from the wireless terminal device based on the key information. and a decision circuit for the characterized Rukoto.

Further, the base station apparatus according to the present invention acquires information on the reception strength of signals received by the wireless terminal apparatus from each of the plurality of base station apparatus and communicates with each of the plurality of base station apparatus via a communication network. The reception signal strength acquisition circuit to be transmitted to the connected management server, the instruction reception circuit for receiving the instruction regarding the data transmission process based on the reception strength information from the management server, and the instruction from the management server. Based on this, the instruction regarding the transmission process of the data received by the instruction receiving circuit is provided with a control circuit for determining whether or not to transmit the data received from the wireless terminal device to the management server. It is an instruction based on the information of the base station device that acquires the data from the wireless terminal device determined by the management server, and the control circuit is an instruction to transmit the data from the management server to the management server. when receiving transmits the data to the management server, when the data has been received an instruction not to transmit to the management server and discards the data.

Further, the mobile wireless communication method between base station devices according to the present invention includes a plurality of base station devices arranged in a predetermined communication area and each having its own communicable range, and each of the plurality of base station devices. A mobile wireless communication method between base stations of a wireless communication system including a communicable wireless terminal device, wherein at least one of the plurality of base station devices is the plurality of base stations within the predetermined communication area. A key information issuing step for issuing key information for identifying a wireless terminal device that is permitted to communicate with the device, a data transmission step for the wireless terminal device to transmit data by broadcast communication, and a plurality of base station devices. Each includes a data receiving step for receiving data transmitted by the wireless terminal device and a determination step for determining whether or not the data received from the wireless terminal device is to be processed based on the key information. , characterized in that it comprises a.

Further, in the mobile wireless communication method between base station devices according to the present invention, the wireless communication system further includes a management server connected to each of the plurality of base station devices via a communication network, and the plurality of base stations. Each of the devices acquires the reception strength information of the signal received from each of the plurality of base station devices by the wireless terminal device, and transmits the received signal strength acquisition step to the management server, and the management server has the plurality of reception signal strengths. A determination step for determining a base station apparatus for acquiring the data transmitted by the wireless terminal apparatus based on the reception intensity information received from the base station apparatus, and a determination for the management server or the determination step. Based on the instruction transmission step of transmitting an instruction regarding the data transmission process to the plurality of base station devices arranged in the communication area, each of the plurality of base station devices transmits the data to the management server. When the instruction to send the data to the management server is received, the data is transmitted to the management server, and when the instruction not to send the data to the management server is received, the control step of discarding the data is performed. characterized by Rukoto equipped with.

According to the present invention, data transmitted by broadcast communication from a wireless terminal device based on key information that identifies a wireless terminal device that is permitted to communicate with a plurality of base station devices arranged in a predetermined communication area. To determine whether or not to process. Therefore, in the base station device, it is possible to more easily control the communication of the wireless terminal device that moves across the communication range unique to the base station device.

FIG. 1 is a diagram showing an outline of a wireless communication system according to the first embodiment of the present invention. FIG. 2 is a configuration diagram of a wireless communication system according to the first embodiment of the present invention. FIG. 3 is a block diagram showing a configuration example of the wireless terminal device according to the first embodiment of the present invention. FIG. 4 is a block diagram showing a configuration example of the base station apparatus according to the first embodiment of the present invention. FIG. 5 is a sequence diagram illustrating an operation in the wireless communication system according to the first embodiment of the present invention. FIG. 6 is a diagram showing a key information management table managed by the key information management device according to the first embodiment of the present invention. FIG. 7 is a block diagram showing a modified example of the wireless terminal device according to the first embodiment of the present invention. FIG. 8 is a configuration diagram of a wireless communication system according to a second embodiment of the present invention. FIG. 9 is a sequence diagram illustrating an operation in the wireless communication system according to the second embodiment of the present invention. FIG. 10 is a configuration diagram of a wireless communication system according to a third embodiment of the present invention. FIG. 11 is a block diagram showing a configuration example of an authority granting device according to a third embodiment of the present invention. FIG. 12 is a sequence diagram illustrating an operation in the wireless communication system according to the third embodiment of the present invention. FIG. 13 is a configuration diagram of a wireless communication system according to a fourth embodiment of the present invention. FIG. 14 is a configuration diagram showing a modified example of the wireless communication system according to the fourth embodiment of the present invention. FIG. 15 is a diagram showing an outline of a wireless communication system according to a fifth embodiment of the present invention. FIG. 16 is a block diagram showing a configuration example of a computer that realizes the management server according to the embodiment of the present invention. FIG. 17 is a schematic diagram of a wireless communication system for explaining the conventional handover process.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 1 to 16. The components that are common to each figure are designated by the same reference numerals.

Further, in the following, the base station devices AP1a to AP3a may be collectively referred to as a base station device APa, and the base station devices AP1b to AP3b may be referred to as a base station device APb. Further, the base station devices APa and APb may be collectively referred to as a base station device AP. Similarly, the wireless terminal devices MN1 to MN3 may be collectively referred to as the wireless terminal device MN.

<First Embodiment>
The wireless communication system 1 according to the first embodiment of the present invention includes a plurality of base station devices AP1a to AP3a arranged in the communication area A, and a wireless terminal device MN1 capable of communicating with each of the base station devices AP1a to AP3a. Have. Each of the base station devices AP1a to AP3a has a data receiving circuit for receiving the data transmitted by the wireless terminal device MN1 and a processing circuit for processing the data. Here, "processing" includes processing data in the base station device AP and transmitting data to another device. In the present embodiment, among the base station devices AP1a to AP3a, the base station device AP1a is associated with a plurality of base station devices AP1a to AP3a in the communication area A when establishing a communication link with the wireless terminal device MN1. It has a key information issuing circuit that issues key information KA1 that identifies the wireless terminal device MN1 to which communication is permitted. The wireless terminal device MN1 has a data transmission circuit for transmitting data by broadcast communication. Further, each of the base station devices AP1a to AP3a has a determination circuit for determining whether or not the data received from the wireless terminal device MN1 is to be processed based on the key information KA1.

FIG. 1 is a diagram showing an outline of a wireless communication system 1 according to a first embodiment of the present invention. The wireless communication system 1 includes wireless terminal devices MN1 to MN3 and base station devices AP1a to AP3a and AP1b to AP3b capable of communicating with wireless terminal devices MN1 to MN3. The base station devices AP1a to AP3a and AP1b to AP3b each have a communication range covered by them, and can communicate with the wireless terminal device MN existing in the communication range.

Further, a part of the communication range of each of the base station devices AP1a to AP3a overlaps with each other. For example, when the wireless terminal device MN1 moves to a location where the communication ranges of the base station devices AP1a to AP3a overlap, the wireless terminal device MN1 can communicate with any of the base station devices AP1a to AP3a.

In the present embodiment, the area including the base station devices AP1a to AP3a is referred to as a communication area A in advance. Similarly, the area including the base station devices AP1b to AP3b is referred to as a communication area B in advance. The communication areas including the plurality of base station apparatus APs may overlap each other.

FIG. 2 is a configuration diagram of the wireless communication system 1 according to the first embodiment. The base station devices AP1a to AP3a belonging to the communication area A and the base station devices AP1b to AP3b belonging to the communication area B are each communicably connected to the management server 2 via a communication network NW such as the Internet.

The management server 2 includes a key information management device 21 and a data processing device 22. The management server 2 receives data from the wireless terminal device MN via the base station device AP.

As will be described later, the key information management device 21 is a device that manages key information issued by the base station device AP to the wireless terminal device MN. The key information management device 21 manages the key information issued in all the communication areas connected via the communication network NW in association with the identification information that identifies the wireless terminal device MN. Specifically, the key information management device 21 has a storage unit for storing the key information management table 3 described later. The key information management device 21 updates the information in the key information management table 3 every time the key information described later is issued by the base station device AP.

The data processing device 22 processes and stores data received from the wireless terminal device MN via the base station device AP.

Next, the configurations of the wireless terminal device MN and the base station device AP that constitute the wireless communication system 1 in the present embodiment will be described. FIG. 3 is a block diagram showing a configuration example of the wireless terminal device MN according to the first embodiment of the present invention. Further, FIG. 4 is a block diagram showing a configuration example of the base station apparatus AP according to the first embodiment of the present invention.

As shown in FIG. 3, the wireless terminal device MN includes a control circuit 110, a storage device 120, a wireless communication circuit 130, and a sensor 140. The control circuit 110 processes data transmitted to the base station apparatus AP and controls wireless communication. The wireless communication circuit 130 functions as a transmission circuit for transmitting data by broadcast communication. Further, the sensor 140 can measure the reception sensitivity such as the RSSI (received signal strength) value. The sensor 140 may detect vital data or the like and convert it into an electric signal. The information detected by the sensor 140 can be transmitted from the wireless communication circuit 130 to the base station apparatus AP by broadcast communication as a part of the data.

As shown in FIG. 4, the base station device AP includes a control circuit 210, a storage device 220, a wireless communication circuit 230, and a wired communication circuit 240. The control circuit 210 controls communication with the wireless terminal device MN and the management server 2, generates key information, processes data received from the wireless terminal device MN, and the like. The storage device 220 has the key information DB 221 and stores the generated key information or stores the key information received from the management server 2. Further, the key information DB 221 stores identification information unique to the communication area to which the base station apparatus AP belongs. The wireless communication circuit 230 functions as a wireless interface and transmits data from the wireless terminal device MN to the management server 2. Further, the wired communication circuit 240 functions as a wired interface and communicates with the management server 2 and the like.

Next, in the wireless communication system 1 according to the present embodiment, communication control when the wireless terminal device MN1 moves in the communication area A will be described. FIG. 3 is a sequence diagram illustrating an operation in the wireless communication system 1. Further, FIG. 4 is a diagram showing a key information management table 3 managed by the key information management device 21.

<Issuance and registration of key information>
First, when the wireless terminal device MN1 enters the communication area A from the outside of the communication area A and moves to the communication range of the base station device AP1a, the initial setting and communication negotiation of wireless communication with the base station device AP1a are performed. This is performed to establish a communication link with the base station apparatus AP1a (step S101).

When the communication link between the wireless terminal device MN1 and the base station device AP1a is established, the base station device AP1a generates the key information KA1 (step S102). The key information KA1 includes identification information unique to the communication area A. Further, the key information KA1 includes information for identifying the communication area A.

In the present embodiment, by associating the key information KA1 with the identification information that identifies the wireless terminal device MN1 and registering the key information KA1 in the key information management device 21 of the management server 2, the wireless terminal device MN1 is located in any of the communication areas A. The base station device APa, the management server 2, and the like can identify that the terminal is authorized to communicate with the base station device APa. Key information is newly generated (issued) each time a communication link is established.

When the wireless terminal device MN1 moves from the communication area A to the communication area B, for example, a new communication link is established with the base station device APb belonging to the communication area B, and the communication area B is used. Key information is issued.

Next, the base station device AP1a transmits the generated key information KA1 to the key information management device 21 (step S103). More specifically, the base station device AP1a transmits the key information KA1 and the identification information indicating the wireless terminal device MN1 that is permitted to communicate in the communication area A to the key information management device 21. As shown in FIG. 6, the key information management device 21 associates the key information KA1 with the identification information of the wireless terminal device MN1 and registers the key information management device 21 in the key information management table 3 (step S104).

When the registration of the key information KA1 and the identification information of the wireless terminal device MN1 is completed, the base station device AP1a transmits the communication permission information to the wireless terminal device MN1 (step S105). This communication permission information notifies the wireless terminal device MN1 that the wireless terminal device MN1 is permitted to communicate with the base station devices AP1a to AP3a in the communication area A.

The wireless terminal device MN1 that has received the communication permission information is not included in any of the base station devices AP1a to AP3a even when the wireless terminal device MN1 subsequently moves within the communication area A across the communication range of the base station devices AP1a to AP3a. It becomes possible to communicate without performing authentication by two-way communication.

<Data transmission by wireless terminal device>
The wireless terminal device MN1 that has received the communication permission information performs broadcast communication, and transmits data in which the identification information of the own device is added to the vital data or the like detected by the sensor 140 or the like (step S106).

<Reception and processing of data in base station equipment>
Since the data transmitted by the wireless terminal device MN1 by broadcast communication has an unspecified number of destinations, it is received not only by the base station devices AP1a to AP3a in the communication area A but also by the base station devices AP1b to AP3b in different communication areas B. Is possible. However, as will be described later, the data from the wireless terminal device MN1 that is permitted to communicate only within the communication area A is not subject to processing by the base station devices AP1b to AP3b in different communication areas B.

On the other hand, in the communication area A, the data from the wireless terminal device MN1 depends on any of the base station devices AP1a to AP3a regardless of which communication range of the base station devices AP1a to AP3a the wireless terminal device MN1 is in. It is the target of processing.

First, the base station device AP1a that has received the data from the wireless terminal device MN1 acquires the key information KA1 from the key information management device 21 via the communication network NW (step S107). More specifically, the base station device AP1a refers to the key information management table 3 of the key information management device 21 based on the identification information of the wireless terminal device MN1 included in the received data, and provides information indicating the wireless terminal device MN1. Acquire the associated key information KA1.

Next, in the base station device AP1a, based on the acquired key information KA1, the wireless terminal device MN1 which is the source of the received data communicates with the base station devices AP1a to AP3a arranged in the communication area A. It is determined whether or not the wireless terminal device is permitted, that is, whether or not the received data is the target data by the base station device AP1a (step S108). More specifically, the base station apparatus AP1a reads out the communication area-specific identification information of the own station apparatus stored in the key information DB221, and the communication area-specific identification information included in the key information KA1 acquired in step S107. Judge whether it matches with.

Since the identification information unique to the communication area A included in the key information KA1 and the identification information of the communication area of the own station device read from the key information DB221 match, the base station device AP1a has the wireless terminal device MN1 in the communication area A. (Step S108; YES), the data received from the wireless terminal device MN1 is transmitted to the data processing device 22 as processing by the base station device AP1a (step S109).

When the data transmitted by the wireless terminal device MN1 by broadcast communication is also received by the base station devices AP2a and AP3a arranged in the communication area A and the base station devices AP1b arranged in different communication areas B, they are wireless. Terminal device MN1 Refers to the key information management table 3 of the key information management device 21 based on the identification information of the wireless terminal device MN1 included in the received data. Then, the base station devices AP2a, AP3a, and AP1b acquire the key information KA1 associated with the information indicating the wireless terminal device MN1, which is the information that matches the identification information of the wireless terminal device MN1 (step S110, step S113, step S113, Step S116).

In the base station devices AP2a and AP3a arranged in the communication area A, the data received from the wireless terminal device MN1 based on the key information KA1 is transmitted to the data processing device 22 as in the case of the base station device AP1a. (Step S111; YES, Step S114; YES), and the received data is transmitted to the data processing device 22 via the communication network NW (steps S112 and S115).

Therefore, in the communication area A, the received data is processed by at least one of the base station devices AP1a to AP3a based on the key information KA1. Therefore, even if the wireless terminal device MN1 moves across the communicable range of these base station devices AP1a to AP3a, the handover process is not required.

On the other hand, the base station device AP1b arranged in the communication area B different from the communication area A has the identification information indicating the communication area A included in the key information KA1 read from the key information DB221 by the base station device AP1b. Since it does not match the identification information of the communication area B to which the device belongs, it is determined that the received data is not a transmission target to the data processing device 22 (step S117; NO), and the received data is discarded (step S118).

As described above, according to the first embodiment, when the wireless terminal device MN1 establishes a communication link with the base station device AP1a in the communication area A and starts communication, the base station device AP1a The key information KA1 that identifies that any of the base station devices AP1a to AP3a arranged in the communication area A is the wireless terminal device MN1 that permits communication is issued. Then, the wireless terminal device MN1 that is permitted to communicate in the communication area A transmits data in one direction by broadcast communication.

As a result, even when the wireless terminal device MN1 moves within the communication area A across the communication range of the base station devices AP1a to AP3a, the wireless terminal device MN1 is reunited with the base station device APa in the communication area A by bidirectional communication. It is possible to communicate without performing authentication. Therefore, the communication of the wireless terminal device MN moving in the communication area A can be controlled more easily, and the configurations of the base station device AP and the wireless terminal device MN can be further simplified.

In the present embodiment, the case where the key information KA1 is generated by the base station apparatus AP1a (step S102) is performed after the communication link between the wireless terminal apparatus MN1 and the base station apparatus AP1a is established has been described. However, the key information KA1 may be generated at the same time as the establishment of the communication link between the wireless terminal device MN1 and the base station device AP1a in step S101.

Further, in the present embodiment, the case where the base station apparatus AP1a generates the key information KA1 has been described, but the key information KA1 is configured to be selected from the key information prepared in advance in a storage unit such as a database. It may be adopted.

Further, in the present embodiment, the case where the base station devices AP1a to AP3a, which have received data from the wireless terminal device MN1 by broadcast communication, acquire the key information KA1 by referring to the key information management table 3 has been described. However, the acquisition of key information is not limited to this. For example, when the key information is registered in the key information management table 3, the key information management device 21 adopts a configuration in which the key information is transmitted to all of the base station devices AP1a to AP3a arranged in the communication area A. May be good.

In this case, the processes (step S107, step S110, step S113, step S116) in which the base station devices AP1a to AP3a and AP1b acquire the key information from the key information management device 21 are omitted.

Further, in the present embodiment, the key information KA1 registered in the key information management table 3 and the identification information of the communication area to which the own station device belongs, which are read from the key information DB221 by the base station devices AP1a to AP3a and AP1b, respectively. Based on the above, a case of determining whether or not the received data is a transmission target to the data processing device 22 has been described. However, the wireless terminal device MN1 that has received the communication permission information may adopt a configuration in which the identification information peculiar to the communication area A for which communication is permitted is added to the data and the data is transmitted by broadcast communication.

In this case, the base station devices AP1a to AP3a and AP1b can transmit only the data including the identification information of the communication area to which the own station device belongs to the data processing device 22. Therefore, since the key information management device 21 does not need to be provided with the key information management table 3, the configuration of the management server 2 can be further simplified.

Further, in the present embodiment, the case where the base station device AP1a transmits the communication permission information in the communication area A to the wireless terminal device MN1 when the communication link is established has been described. However, the base station device AP1a may adopt a configuration in which the key information KA1 is transmitted to the wireless terminal device MN1 instead of the communication permission information. In this case, as shown in FIG. 7, the wireless terminal device MN1 stores the received key information KA1 in the key information DB 121. Further, in this case, the wireless terminal device MN1 may transmit the key information KA1 together with the data.

<Second Embodiment>
Next, a second embodiment of the present invention will be described. FIG. 8 is a configuration diagram of a wireless communication system 1a according to a second embodiment of the present invention. Further, FIG. 9 is a sequence diagram illustrating an operation in the wireless communication system 1a. In the following description, the same components as those in the first embodiment described above are designated by the same reference numerals, and the description thereof will be omitted.

In the first embodiment, the wireless terminal device MN1 that has received the communication permission information that permits communication with any of the base station devices AP1a to AP3a arranged in the communication area A transmits data by broadcast communication. The case was explained. On the other hand, in the second embodiment, the management server 2 further includes an RSSI information processing device 23, and the RSSI information processing device 23 includes a base station device APa that acquires data from the wireless terminal device MN1. Decide on one.

As shown in FIG. 8, the wireless terminal device MN1 transmits information on reception sensitivity such as RSSI values of the base station devices AP1a to AP3a to the base station devices AP1a to AP3a by broadcast communication. The RSSI information processing device 23 acquires the RSSI values of the base station devices AP1a to AP3a via the communication network NW and compares them. Further, the RSSI information processing device 23 determines the base station device APa for acquiring data from the wireless terminal device MN1 based on the comparison result of the RSSI values. Further, the RSSI information processing device 23 transmits an instruction (transmission or discard) regarding data transmission processing to the base station devices AP1a to AP3a.

Next, the operation of the wireless communication system 1a according to the present embodiment will be described in more detail. As shown in FIG. 9, the wireless terminal device MN1 establishes a communication link with the base station device AP1a (step S201) and receives communication permission information from the base station device AP1a (step S202).

Subsequently, the wireless terminal device MN1 receives the beacon signal from each of the base station devices AP1a to AP3a arranged in the communication area A (steps S203 to S205). Then, the wireless terminal device MN1 measures the RSSI value for each signal of the received beacon.

Next, the wireless terminal device MN1 transmits information on the RSSI values of the base station devices AP1a to AP3a to the base station devices AP1a to AP3a by broadcast communication (step S206). The wireless terminal device MN1 may add RSSI value information to the data and transmit it to the base station devices AP1a to AP3a.

When the RSSI information processing device 23 acquires the RSSI value information from the wireless terminal device MN1, the RSSI information processing device 23 compares the RSSI values of the base station devices AP1a to AP3a (step S207). In the present embodiment, the comparison result (AP1a> AP2a> AP3a) is that the RSSI value of the base station apparatus AP1a is the highest, the RSSI value of the base station apparatus AP2a is the next highest, and the RSSI value of the base station apparatus AP3a is the lowest. A case will be described.

Based on the comparison result in step S207, the RSSI information processing apparatus 23 determines to preferentially acquire the data from the wireless terminal apparatus MN1 from the base station apparatus AP1a having the highest RSSI value.

Further, the RSSI information processing apparatus 23 transmits a data transmission instruction to the base station apparatus AP1a based on the above determination (step S208). Further, the RSSI information processing device 23 transmits an instruction to discard the data from the wireless terminal device MN1 to the base station devices AP2a and AP3a (steps S209 and S210).

Next, the wireless terminal device MN1 transmits data in one direction to the base station devices AP1a to AP3a by broadcast communication (step S211). The base station device AP1a transmits the data from the wireless terminal device MN1 to the data processing device 22 based on the data transmission instruction received in step S208.

The base station devices AP2a and AP3a discard the data from the wireless terminal device MN1 based on the data discard instructions received in steps S209 and S210, respectively (steps S212 and S213).

Further, the wireless terminal device MN1 can continuously transmit the RSSI value information to the RSSI information processing device 23. As a result, the RSSI information processing device 23 always preferentially acquires data from the base station device APa having the highest RSSI value according to the RSSI value that changes due to movement in the communication area A by the wireless terminal device MN1. It becomes possible to do.

As described above, according to the second embodiment, the RSSI information processing device 23 starts from the base station device AP1a having the highest RSSI value among the base station devices AP1a to AP3a arranged in the communication area A. Data is preferentially acquired. Further, the RSSI information processing device 23 causes the base station devices AP2a and AP3a to discard the data from the base station devices AP2a and AP3a having a low RSSI value.

This makes it possible to suppress the amount of communication traffic to the management server 2 even when all the base station devices AP1a to AP3a in the communication area A can receive the data from the wireless terminal device MN1. Become.

In the present embodiment, a case where data transmitted by the wireless terminal device MN1 is received from the base station device AP1a having the highest RSSI value has been described. However, for example, when the RSSI values are the same between the base station devices AP1a and AP2a (AP1a≈AP2a> AP3a), the configuration for continuously acquiring data from the base station device AP1a currently in use is configured. It may be adopted.

<Third embodiment>
Next, a third embodiment of the present invention will be described. FIG. 10 is a configuration diagram of a wireless communication system 1b according to a third embodiment of the present invention. FIG. 11 is a block diagram showing a configuration example of the authority granting device 4 according to the present embodiment. Further, FIG. 12 is a sequence diagram for explaining the operation in the wireless communication system 1b. In the following description, the same components as those in the first and second embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

In the first and second embodiments, it is identified that the base station apparatus AP1a is a wireless terminal apparatus MN1 that permits communication with any of the base station apparatus AP1a to AP3a arranged in the communication area A. The case where the key information KA1 is generated and the communication permission information is transmitted to the wireless terminal device MN1 has been described. On the other hand, in the third embodiment, the authority granting device 4 capable of communicating with the wireless terminal device MN1 issues the key information KA1 instead of the base station device AP1a.

Further, in the present embodiment, the authority granting device 4 is arranged outside the communication area A. The wireless terminal device MN1 passes through a place such as a gate (not shown) in which the authority granting device 4 is arranged, and receives communication permission information from the authority granting device 4. After that, the wireless terminal device MN1 enters the communication area A and communicates while moving in the communication area A. The authority granting device 4 can generate not only the key information for the communication area A but also the key information for permitting communication in another communication area B, and can transmit the communication permission information to the wireless terminal device MN1.

Next, the configuration of the authority granting device 4 in the present embodiment will be described. As shown in FIG. 11, the authorization device 4 has the same configuration as the base station device AP described above. Specifically, the authority granting device 4 includes a control circuit 410, a storage device 420, a wireless communication circuit 430, and a wired communication circuit 440. Further, the storage device 420 has the key information DB 421. The control circuit 410 performs processing related to generation and transmission of key information. Further, the control circuit 410 can perform a process for establishing a communication link with the wireless terminal device MN.

Next, the operation in the wireless communication system 1b according to the present embodiment will be described. As shown in FIG. 12, first, the wireless terminal device MN1 requests the authority granting device 4 for communication permission information for permitting communication in the communication area A (step S301). At this time, the wireless terminal device MN1 transmits, for example, a request for establishing a link for wireless communication with the base station device AP1a belonging to the communication area A to the authorization device 4, and establishes a communication link with the base station device AP1a. Can be established.

After that, the authority granting device 4 generates key information KA1 that identifies the wireless terminal device MN1 that is permitted to communicate in the communication area A (step S302). Then, the authority granting device 4 transmits the key information KA1 to the key information management device 21 via the communication network NW (step S303).

The key information management device 21 that has received the key information KA1 associates the key information KA1 with the information indicating the wireless terminal device MN1 and registers the key information KA1 in the key information management table 3 (step S304). After that, the wireless terminal device MN1 enters the communication area A and transmits data in one direction by broadcast communication (step S306).

Next, the base station devices AP1a to AP3a that have received the data from the wireless terminal device MN1 acquire the key information KA1 from the key information management device 21, respectively (steps S307, S310, and S315). Further, the base station devices AP1a to AP3a determine that the received data is the data to be transmitted to the data processing device 22 (step S308; YES, step S311; YES, step S314; YES), and process the received data as data. It is transmitted to the device 22 (steps S309, S312, S315).

As described above, according to the third embodiment, since the authorization device 4 generates the key information KA1 and transmits the communication permission information to the wireless terminal device MN1, the base station device AP is the wireless terminal device. It suffices to have a function of receiving data from the MN. Therefore, the configuration of the base station device AP can be further simplified, and the manufacturing cost can be reduced.

<Fourth Embodiment>
Next, a fourth embodiment of the present invention will be described. FIG. 13 is a block diagram of the wireless communication system 1c according to the fourth embodiment of the present invention. Further, FIG. 14 is a configuration diagram showing a modified example of the wireless communication system 1c. In the following description, the same components as those in the first to third embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

In the fourth embodiment, a configuration is used in which the time information of the base station devices AP1a to AP3a arranged in the communication area A is synchronized. As shown in FIG. 13, the management server 2 transmits the time information based on the time indicated by the clock 24 of the management server 2 and the synchronization instruction to the base station devices AP1a to AP3a via the communication network NW.

Further, as shown in FIG. 14, the base station devices AP1a to AP3a are provided with GPS receivers 51, 52, and 53, respectively. The management server 2 may synchronize the time information between the base station devices AP1a to AP3a based on the signals from the GPS satellites received by the GPS receivers 51, 52, and 53.

By synchronizing the base station devices AP1a to AP3a arranged in the communication area A in this way, the communication time slots between the base station devices AP1a to AP3a can be matched. Therefore, when each of the base station devices AP1a to AP3a arranged in the same communication area A receives data from the wireless terminal device MN1 by broadcast communication, the influence of the reception delay and the data transfer time difference can be mitigated. it can.

<Fifth Embodiment>
Next, a fifth embodiment of the present invention will be described. FIG. 15 is a configuration diagram of a wireless communication system 1d according to a fifth embodiment of the present invention. In the following description, the same components as those in the first to fourth embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

In the first to fourth embodiments, the case where the wireless terminal device MN1 that has received the communication permission information that permits communication in the communication area A transmits data by broadcast communication has been described. On the other hand, in the fifth embodiment, the wireless terminal device MN1a has a bridging function and bridges data from the wireless sensor terminal 6 provided with a sensor or the like.

For example, the user carries the wireless terminal device MN1a and the wireless sensor terminal 6 and moves in the communication area A. The wireless sensor terminal 6 acquires vital data such as the pulse and body temperature of the moving user.

If the wireless terminal device MN1a having a bridge function receives the communication permission information in the communication area A, the communication in the communication area A is permitted. Therefore, it is not necessary to perform authentication processing by two-way communication such as handover processing of the wireless sensor terminal 6 accompanying the movement of the user in the communication area A. As a result, the wireless sensor terminal 6 can be configured in a simpler manner, and the manufacturing cost can be reduced.

As shown in FIG. 16, the management server 2 described in the present embodiment controls a computer including the CPU 202a, the storage device 203a, and the I / F 204a connected via the bus 201a, and their hardware resources. It can be realized by a program. The CPU 202a executes the process described in the present embodiment according to the program stored in the storage device 203a.

Although the embodiments of the wireless communication system, the base station device, and the mobile radio method between base station devices of the present invention have been described above, the present invention is not limited to the described embodiments and is described in the claims. It is possible to make various modifications that can be assumed by those skilled in the art within the scope of the invention.

For example, in the described embodiment, the case where the three base station devices AP1a to AP3a are arranged in the communication area A has been described, but the number of base station devices arranged in the communication area is not limited to this.

Further, in the above-described embodiment, the configuration in which the management server 2 includes the key information management device 21, the data processing device 22, and the RSSI information processing device 23 has been described. However, the key information management device 21, the data processing device 22, and the RSSI information processing device 23 may be configured as separate servers.

1, 1a, 1b, 1c, 1d ... Wireless communication system, 2 ... Management server, 21 ... Key information management device, 22 ... Data processing device, 23 ... RSSI information processing device, 24 ... Clock, 3 ... Key information management table, 4 ... authorization device, 51, 52, 53 ... GPS receiver, 6 ... wireless sensor terminal, 110, 210, 410 ... control circuit, 120, 220, 420 ... storage device, 121, 221, 421 ... key information DB, 130, 230, 430 ... Wireless communication circuit, 140 ... Sensor, 240, 440 ... Wired communication circuit, AP, APa, AP1a, AP2a, AP3a, APb, AP1b, AP2b, AP3b ... Base station equipment, MN, MN1, MN1a, MN2, MN3 ... Wireless terminal device.

Claims (6)

A plurality of base station devices arranged in a predetermined communication area and each having its own communicable range,
A wireless terminal device capable of communicating with each of the plurality of base station devices,
A management server connected to each of the plurality of base station devices via a communication network,
It is a wireless communication system equipped with
At least one of the plurality of base station devices
A key information issuing circuit for issuing key information for identifying a wireless terminal device that is permitted to communicate with the plurality of base station devices in the predetermined communication area is provided.
The wireless terminal device is
Equipped with a data transmission circuit, which transmits data by broadcast communication,
Each of the plurality of base station devices
A data receiving circuit that receives data transmitted by the wireless terminal device, and
Based on the key information, a determination circuit that determines whether or not to process the data received from the wireless terminal device, and a determination circuit.
A reception signal strength acquisition circuit that acquires information on the reception strength of signals received by the wireless terminal device from each of the plurality of base station devices and transmits the information to the management server.
A control circuit that determines whether or not to transmit the data received from the wireless terminal device to the management server based on an instruction from the management server.
With
The management server
A determination circuit for determining a base station device to acquire the data transmitted by the wireless terminal device based on the reception intensity information received from the plurality of base station devices, and a determination circuit.
An instruction transmission circuit that transmits an instruction regarding the data transmission process to the plurality of base station devices arranged in the communication area based on the determination by the determination circuit.
With
When the control circuit receives an instruction to transmit the data to the management server from the management server, the control circuit transmits the data to the management server and an instruction not to transmit the data to the management server. A wireless communication system characterized in that the data is discarded when the data is received. Are arranged in a predetermined communication area, a plurality of base stations having its own communication range, respectively,
A wireless terminal device capable of communicating with each of the plurality of base station devices,
An authority-giving device that grants the wireless terminal device the authority to communicate with the plurality of base station devices, and
A management server connected to each of the plurality of base station devices via a communication network,
It is a wireless communication system equipped with
The authorization device is
A key information issuing circuit for issuing key information for identifying a wireless terminal device that is permitted to communicate with the plurality of base station devices in the predetermined communication area is provided.
The wireless terminal device is
Equipped with a data transmission circuit, which transmits data by broadcast communication,
Each of the plurality of base station devices
A data receiving circuit that receives data transmitted by the wireless terminal device, and
Based on the key information, a determination circuit that determines whether or not to process the data received from the wireless terminal device, and a determination circuit.
A reception signal strength acquisition circuit that acquires information on the reception strength of signals received by the wireless terminal device from each of the plurality of base station devices and transmits the information to the management server.
A control circuit that determines whether or not to transmit the data received from the wireless terminal device to the management server based on an instruction from the management server.
With
The management server
A determination circuit for determining a base station device to acquire the data transmitted by the wireless terminal device based on the reception intensity information received from the plurality of base station devices, and a determination circuit.
An instruction transmission circuit that transmits an instruction regarding the data transmission process to the plurality of base station devices arranged in the communication area based on the determination by the determination circuit.
With
When the control circuit receives an instruction to transmit the data to the management server from the management server, the control circuit transmits the data to the management server and an instruction not to transmit the data to the management server. A wireless communication system characterized in that the data is discarded when the data is received. A base station device that is located within a predetermined communication area, has its own communicable range, and can communicate with a wireless terminal device.
A key information issuing circuit that issues key information that identifies a wireless terminal device that is permitted to communicate with a plurality of base station devices arranged in the predetermined communication area.
A data receiving circuit that receives data transmitted by broadcast communication from a wireless terminal device, and
Based on the key information, a determination circuit that determines whether or not to process the data received from the wireless terminal device, and a determination circuit.
The reception signal strength that the wireless terminal device acquires information on the reception strength of the signal received from each of the plurality of base station devices and transmits the information to the management server connected to each of the plurality of base station devices via the communication network. Acquisition circuit and
An instruction receiving circuit that receives an instruction regarding a data transmission process based on the reception strength information from the management server, and an instruction receiving circuit.
A control circuit that determines whether or not to transmit the data received from the wireless terminal device to the management server based on the instruction from the management server.
With
The instruction regarding the transmission process of the data received by the instruction receiving circuit is an instruction determined by the management server based on the information of the base station device that acquires the data from the wireless terminal device.
When the control circuit receives an instruction to transmit the data to the management server from the management server, the control circuit transmits the data to the management server and an instruction not to transmit the data to the management server. A base station apparatus characterized in that the data is discarded when the data is received. A base station device that is located within a predetermined communication area, has its own communicable range, and can communicate with a wireless terminal device.
A data receiving circuit that receives data transmitted by broadcast communication from a wireless terminal device, and
Whether to process the data received from the wireless terminal device based on the key information that identifies the wireless terminal device that is permitted to communicate with the plurality of base station devices arranged in the predetermined communication area. Judgment circuit to judge whether or not,
Based on the key information, a determination circuit that determines whether or not to process the data received from the wireless terminal device, and a determination circuit.
The reception signal strength that the wireless terminal device acquires information on the reception strength of the signal received from each of the plurality of base station devices and transmits the information to the management server connected to each of the plurality of base station devices via the communication network. Acquisition circuit and
An instruction receiving circuit that receives an instruction regarding a data transmission process based on the reception strength information from the management server, and an instruction receiving circuit.
A control circuit that determines whether or not to transmit the data received from the wireless terminal device to the management server based on the instruction from the management server.
With
The instruction regarding the transmission process of the data received by the instruction receiving circuit is an instruction determined by the management server based on the information of the base station device that acquires the data from the wireless terminal device.
When the control circuit receives an instruction to transmit the data to the management server from the management server, the control circuit transmits the data to the management server and an instruction not to transmit the data to the management server. A base station apparatus characterized in that the data is discarded when the data is received. A plurality of base station devices arranged in a predetermined communication area and each having its own communicable range,
A wireless terminal device capable of communicating with each of the plurality of base station devices,
A mobile wireless communication method between base stations of a wireless communication system including a management server connected to each of the plurality of base station devices via a communication network.
At least one of the plurality of base station devices
A key information issuing step of issuing key information that identifies a wireless terminal device that is permitted to communicate with the plurality of base station devices within the predetermined communication area, and a key information issuing step.
The wireless terminal device
A data transmission step that transmits data by broadcast communication,
Each of the plurality of base station devices
A data receiving step of receiving the data transmitted by the wireless terminal device, and
A determination step for determining whether or not to process the data received from the wireless terminal device based on the key information, and
A reception signal strength acquisition step of acquiring information on the reception strength of a signal received by the wireless terminal device from each of the plurality of base station devices and transmitting the information to the management server.
The management server
A determination step of determining a base station device to acquire the data transmitted by the wireless terminal device based on the reception intensity information received from the plurality of base station devices, and a determination step.
An instruction transmission step of transmitting an instruction regarding the data transmission process to the plurality of base station devices arranged in the communication area based on the determination in the determination step.
Each of the plurality of base station devices
When the instruction to transmit the data to the management server is received, the data is transmitted to the management server, and when the instruction not to transmit the data to the management server is received, the data is transmitted. With control steps to discard
A mobile wireless communication method between base stations, which comprises. A plurality of base station devices arranged in a predetermined communication area and each having its own communicable range,
A wireless terminal device capable of communicating with each of the plurality of base station devices,
An authority-giving device that grants the wireless terminal device the authority to communicate with the plurality of base station devices, and
A mobile wireless communication method between base stations of a wireless communication system including a management server connected to each of the plurality of base station devices via a communication network.
The authorization device
A key information issuing step of issuing key information that identifies a wireless terminal device that is permitted to communicate with the plurality of base station devices within the predetermined communication area, and a key information issuing step.
The wireless terminal device
A data transmission step that transmits data by broadcast communication,
Each of the plurality of base station devices
A data receiving step of receiving the data transmitted by the wireless terminal device, and
A determination step for determining whether or not to process the data received from the wireless terminal device based on the key information, and
A reception signal strength acquisition step of acquiring information on the reception strength of a signal received by the wireless terminal device from each of the plurality of base station devices and transmitting the information to the management server.
The management server
A determination step of determining a base station device to acquire the data transmitted by the wireless terminal device based on the reception intensity information received from the plurality of base station devices, and a determination step.
An instruction transmission step of transmitting an instruction regarding the data transmission process to the plurality of base station devices arranged in the communication area based on the determination in the determination step.
Each of the plurality of base station devices
When the instruction to transmit the data to the management server is received, the data is transmitted to the management server, and when the instruction not to transmit the data to the management server is received, the data is transmitted. With control steps to discard
A mobile wireless communication method between base stations, which comprises.

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